RU2172087C2 - Method of soil enrichment during farm crop cultivation - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves introducing cereal straw, stubble decomposing activator and soil microflora activator into soil. Ground straw is uniformly spread over field during harvesting of cereals in an amount of 4-6 t/hectare, with following embedding of spread straw into soil by fall plowing. Biological preparations of stubble decomposing activator and soil microflora activator are applied into soil in spring at presowing cultivation period to 6-10 cm depth at the rate of 1,000 ml/hectare of each preparation. Method allows yield of cereals, for example of buckwheat, to be increased by 25% and ecologically clean product to be obtained. EFFECT: increased efficiency and improved yield. 1 tbl, 5 ex

Description

 The invention relates to agriculture, and in particular to methods of enriching the soil during the cultivation of crops.

 A known method of enriching the soil by introducing straw into it together with mineral fertilizers [1], as well as biological products and mineral fertilizers for sugar beets and potatoes [2]. The disadvantage of these methods is the inability to obtain environmentally friendly agricultural products.

 There is a method of enriching the soil by introducing into it the stubble decomposition activator (APC) [3] and the soil microflora activator (APM) [4, 5]. With these methods, the nutrients obtained from the action of APC and APM are not enough to obtain high crop yields.

 Existing methods do not simultaneously solve the problem of enriching the soil, increasing crop yields and producing environmentally friendly agricultural products.

 The objective of the invention is to increase crop yields, obtain environmentally friendly products by increasing soil fertility.

 The problem is achieved due to the fact that in the known method of soil enrichment, including the use of straw of cereal crops, according to the invention, the stubble decomposition activator (APC) and the soil microflora activator (APM) are additionally introduced into the soil. At the same time, straw during the harvesting of grain is crushed and evenly scattered on the surface of the earth, and then in the autumn, they are plowed into the soil with autumn plowing. Biological products APC and APM are applied in spring under pre-sowing cultivation to a depth of 8-10 cm, normally 1000 ml / ha each.

 ARS accelerates the decomposition of crop residues, enriches the soil with carbon, reduces the content of soil pathogenic microflora, activates the process of humus formation [6].

 APM promotes the propagation of beneficial soil microflora, which leads to an increase in the activity of soil-plant metabolism, inhibits the development of phytopathogenic microflora, and thereby heals the soil biocenosis [6].

 Biological products ARS and APM are harmless to humans, animals, birds and insects [6].

To implement the method, field experiments were carried out in triplicate using buckwheat as an example according to the following scheme:
1. Experience - control: without applying straw, APM and ARS to the soil.

 2. Experience - the introduction of 4-6 t / ha of straw.

 3. Experience - the introduction of 4-6 t / ha of straw + APM in the norm of 1000 ml / ha.

 4. Experience - the introduction of 4-6 t / ha of straw + APC at a rate of 1000 ml / ha.

 5. Experience - the introduction of 4-6 t / ha of straw + APM and ARS in the norm of 1000 ml / ha of each.

 The experiments were performed in 1997 and repeated in 1998.

The area of each plot - 178 ^m2.

 When harvesting grain, the straw is crushed and scattered evenly across the field with a combine harvester, and then it is plowed with a chaffinch plowing into the soil with a plow and left until spring.

 In the spring, biologics APM and APC at a rate of 1000 ml / ha each are applied to the soil to a depth of 6-10 cm under pre-sowing cultivation.

 The activity of soil microflora was determined by the degree of decomposition of linen in the soil layer of 0-10 and 10-20 cm.

 Example 1. On the control plots without applying straw and biologics АПМ, АРС to the soil, on average over two years, the buckwheat grain yield was 11.7 c / ha, and the area of linen in the soil layer 0-10 cm and 10-20 cm decreased 0.235 and 0.360 shares. The indicated indicators are taken as 100% (see table).

 Example 2. When chopping grain, crushed straw is uniformly scattered across the field with a combine in the amount of 4-6 t / ha, then it is plowed with a chaffinch plowing into the soil with a plow and left until spring. In the spring, buckwheat is sown in this soil, the yield of which increased by 0.4 kg / ha, and the decrease in the decomposition of linen in the soil layer of 0-10 cm was 10.7%, and in the layer of 10-20 cm it was 20.8% in relation to to control (see table).

 Example 3. As in example 2, crushed straw in the amount of 4-6 t / ha is planted in the soil with autumn plowing in the fall, and in the spring, under the pre-sowing cultivation to a depth of 6-10 cm, the APM biological product is applied at a rate of 1000 ml / ha. The introduction of straw and APM into the soil enhances the activity of soil microflora, which, by decomposing straw, releases nutrients for buckwheat. At the same time, buckwheat productivity increased by 0.8 c / ha, and the decomposition of linen in the 0-10 cm layer increased by 78.7%, and in the 10-20 cm layer by 56.2% compared with the control (see table).

 Example 4. According to the above scheme, crushed straw and the ARS biological product are applied to the soil at a rate of 1000 ml / ha, which significantly activates the soil microflora and contributes to the enrichment of the soil with nutrients. Buckwheat productivity increased by 1.4 kg / ha, which is 12.0%, and the decomposition of linen in the soil layer of 0-10 cm and 10-20 cm increased by 170.2% and 94.6%, respectively, compared with the control .

 Example 5. Chopped straw in an amount of 4-6 t / ha, as in experiments 2, 3 and 4, is covered with chaffinch plowing in the soil and left until spring. In the spring, biologics АПМ and АРС in the norm of 1000 ml / ha each are applied to the soil to a depth of 6-10 cm under pre-sowing cultivation. In this case, there is a high activity of microflora, which leads to the complete decomposition of straw and the release of the minerals contained in it that are available for plants. At the same time, buckwheat yield is increased by 3.0 kg / ha, which is 25.6%, and the decomposition of linen in the soil layer of 0-10 cm and 10-20 cm increased by 217.0% and 119.4%, respectively, compared with the control . All indicators of this experience exceed not only the control, but also the indicators of experiments 2, 3 and 4.

 Thus, the proposed method of introducing straw with APM and ARS allows you to get environmentally friendly buckwheat and increase its productivity.

Sources of information
1. Technology of using straw for fertilizer / Chemicalization of agriculture. - 1990, N 1. - S. 41-44.

 2. The complex use of biological products and mineral fertilizers for sugar beets and potatoes. / Chemistry in agriculture. - 1997, N 2. - S. 9-10.

 3. The use of bioactivators. / Chemicalization of agriculture. - 1997, N 1-2. - S. 37-39.

 4. The effectiveness of biological products in vegetable, fruit and ornamental crops. / Chemistry in agriculture. - 1997, N 2. - S. 10-13.

 5. Activators of growth and biofertilizer on crops of grain crops. / Chemistry in agriculture. - 1997, N 2. - S. 13-15.

 6. Biological preparations and soil fertility. / Chemistry in agriculture. - 1997, N 2. - S. 7-9.

Claims (1)

 A method of enriching the soil during the cultivation of crops, including the introduction of cereal straw into the soil, characterized in that it additionally introduces a stubble decomposition activator (APC) and soil microflora activator (APM), while the crushed straw is uniformly scattered throughout the field during harvesting 4–6 t / ha, followed by incorporation into the soil with autumn plowing, and ARS and APM biological products are introduced in spring under pre-sowing cultivation to a depth of 6–10 cm, normally 1000 ml / ha each.

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